Although a molecular diagnostic assay using clinically accessible tissue, such as blood, would facilitate evaluation of disease conditions in humans and animals, little information exists on microarray-based gene expression profiling of circulating leukocytes from clinically hypocalcemic cows. Therefore, peripheral blood mononuclear cells from dairy cows with experimentally induced hypocalcemia or spontaneous milk fever were subjected to oligo-microarray analysis to identify specific biomarker genes. In experimental hypocalcemia induced by a 4-h infusion of 10% disodium EDTA (n=4), 32 genes were significantly up- or downregulated compared with control treatment (4-h infusion of 11% calcium EDTA; n=4). In cows with milk fever (n=8), 98 genes were expressed differentially (either up- or downregulated) compared with healthy parturient cows (n=5). From these data, the following 5 genes were selected as being strongly related to both experimental hypocalcemia and milk fever: protein kinase (cAMP-dependent, catalytic) inhibitor β (PKIB); DNA-damage-inducible transcript 4 (DDIT4); period homolog 1 (PER1); NUAK family, SNF1-like kinase, 1 (NUAK1); and expressed sequence tag (BI537947). Another gene (neuroendocrine secretory protein 55, NESP55) was also determined to be specific for milk fever, independently of hypocalcemia. The mRNA expression of these 6 genes in milk fever cases was verified by quantitative real-time reverse-transcription PCR and was significantly different compared with their expression in healthy parturient cows. In the present study, the selected genes appeared to be candidate biomarkers of milk fever because the continuous interactions between blood cells and the entire body suggest that subtle intracellular changes occur in association with disease. However, before any genomic biomarkers are incorporated into clinical evaluation of the disease, the effect of hypocalcemia on the mRNA expression of these genes in the tissues that regulate calcium homeostasis in dairy cows should be determined.
The antioxidant effect of N, N-dimethylglycine (DMG) on in vitro-produced (IVP) bovine
embryos was examined. After in vitro fertilization, presumptive zygotes were cultured with or
without 0.1 μM DMG under different oxygen tensions. The percentage of embryos developing to the blastocyst
stage was lowest under a 20% oxygen concentration without DMG, and it was significantly increased (P <
0.05) by applying a 5% oxygen concentration. Under the 20% oxygen concentration, supplementation of the medium
with DMG significantly improved blastocyst development, which was nearly equal to that achieved under 5%
oxygen without DMG. Furthermore, a tendentious increase (P = 0.06) in blastocyst cell numbers was observed
when DMG was applied. In the second experiment, addition of H2O2 (0.5 mM) to the culture
medium significantly (P < 0.01) reduced the percentage of embryos developing to the blastocyst stage.
However, DMG supplementation prevented this reduction. In conclusion, DMG enhanced the
in vitro development of IVP bovine embryos by acting as an antioxidant.
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